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1 ritically ill patients (sepsis, seizure, and cardiac arrest).
2 ns, 222 cardiovascular deaths, and 6 aborted cardiac arrests).
3  on the outcomes of patients who experienced cardiac arrest.
4 ins staff in the recognition and response to cardiac arrest.
5 utcome prediction of comatose patients after cardiac arrest.
6 ociated with increased survival after sudden cardiac arrest.
7                   Tracheal intubation during cardiac arrest.
8 and on-HQ in 16 SQTS patients who survived a cardiac arrest.
9 comes, and motor reaction good outcome after cardiac arrest.
10  survived to day 30 after an out-of-hospital cardiac arrest.
11  decline in an effort to prevent in-hospital cardiac arrest.
12 US-based multicenter registry of in-hospital cardiac arrest.
13 ly tracheal intubation for adult in-hospital cardiac arrest.
14 gement at 33 degrees C or 36 degrees C after cardiac arrest.
15 dioversion or survival after out-of-hospital cardiac arrest.
16 es at a sensitivity of 56% at 12 hours after cardiac arrest.
17 t transplants, and 2 were resuscitated after cardiac arrest.
18  and 36 degrees C targeted temperature after cardiac arrest.
19 structing dispatch centers on recognition of cardiac arrest.
20 st classifier was fitted for each hour after cardiac arrest.
21 tial portion of patients experiencing sudden cardiac arrest.
22 re resuscitated after 7 minutes of untreated cardiac arrest.
23 of serum and dialysate potassium can trigger cardiac arrest.
24 atients with acute myocardial infarction and cardiac arrest.
25 a lifesaving technique for victims of sudden cardiac arrest.
26 ty-three consecutive comatose patients after cardiac arrest.
27  admission, and at 24 h, 48 h, and 72 h post-cardiac arrest.
28 ould be provided for infants and children in cardiac arrest.
29  suggest a role for low-Vt ventilation after cardiac arrest.
30 led xenon among survivors of out-of-hospital cardiac arrest.
31  stroke, and only 3 patients had experienced cardiac arrest.
32 re in this model of ventricular fibrillation cardiac arrest.
33 es of survival for patients with in-hospital cardiac arrest.
34 racheal intubation for pediatric in-hospital cardiac arrest.
35  a porcine model of ventricular fibrillation cardiac arrest.
36 ltifocal myoclonus (PAMM) that develop after cardiac arrest.
37 the first 180 seconds after the onset of the cardiac arrest.
38 ventions in children who had had in-hospital cardiac arrest.
39 ed 235 959 patients who underwent ICPR after cardiac arrest.
40 as a predictor of neurological outcome after cardiac arrest.
41 ion of neurological outcome in patients with cardiac arrest.
42  where their loss culminates in fibrillatory cardiac arrest.
43  sustained systolic blood pressure <10 mmHg, cardiac arrest.
44   All patients were followed up 1 year after cardiac arrest.
45 n several countries to predict outcome after cardiac arrest.
46 regional systems of care for out-of-hospital cardiac arrest.
47 ad a VABS-II score of at least 70 before the cardiac arrest.
48 ation and pulseless ventricular tachycardia) cardiac arrests.
49 l of 269,999 patients were admitted, and 424 cardiac arrests, 13,188 intensive care unit transfers, a
50       Among 112139 patients with in-hospital cardiac arrest, 30241 (27.0%) were black (mean [SD] age,
51 %) experienced the primary outcome (9 sudden cardiac arrest, 40 appropriate implantable cardioverter
52 atients with acute myocardial infarction and cardiac arrest (5619 in New York) were included.
53                      In the first days after cardiac arrest, accurate prognostication is challenging.
54 roportion of black patients with in-hospital cardiac arrest achieved larger survival gains over time.
55 nd cardiac disease were also associated with cardiac arrests (adjusted odds ratio, 2.1; 95% CI, 1.2-3
56 n unconscious survivors from out-of-hospital cardiac arrest admitted to the ICU, targeted temperature
57 illator for the primary prevention of sudden cardiac arrest after baseline clinical evaluation and im
58 to a public or a residential location of the cardiac arrest after nationwide initiatives in Denmark t
59                       Although rare cases of cardiac arrest after NMB reversal have been reported, ou
60 logic outcomes and survival of patients with cardiac arrest after targeted temperature management at
61 ation is common during pediatric in-hospital cardiac arrest, although the relationship between intuba
62 lizations for acute myocardial infarction or cardiac arrest among Medicare beneficiaries (>/=65 years
63                        To describe death and cardiac arrest among triathlon participants.
64                        Incidence of death or cardiac arrest among USAT participants (n = 4 776 443) w
65 ardiac Arrest Risk Triage score was 0.88 for cardiac arrest and 0.80 for ICU transfer, consistent wit
66 nship between gasping during out-of-hospital cardiac arrest and 1-year survival with favorable neurol
67 trial fibrillation following out-of-hospital cardiac arrest and 180-day all-cause mortality and speci
68 ents ("learning" sample) 16 +/- 8 days after cardiac arrest and 70 matched controls.
69 -fold (95% CI, 6.10-22.72) increased odds of cardiac arrest and a 3.01-fold (95% CI, 2.08-4.36) to 6.
70 State began excluding selected patients with cardiac arrest and coma from publicly reported mortality
71 prognostic value for comatose patients after cardiac arrest and enables bedside EEG interpretation of
72 rate mitral regurgitation; n=6 with previous cardiac arrest and implantable cardioverter defibrillato
73 er, for example, for prostate cancer, sudden cardiac arrest and neurodegenerative disorders.
74 ations 3 days after nontraumatic in-hospital cardiac arrest and out-of-hospital cardiac arrest and ou
75 -hospital cardiac arrest and out-of-hospital cardiac arrest and outcome of patients from five hospita
76 h the relationship between intubation during cardiac arrest and outcomes is unknown.
77 idal-thalamo-cortical mesocircuit induced by cardiac arrest and pave the way for the use of combined
78 illness in his late 40s after a resuscitated cardiac arrest and regularly followed up on a yearly bas
79       Dilation of the right ventricle during cardiac arrest and resuscitation may be inherent to card
80 s and medical management of hyperlactatemia, cardiac arrest and resuscitation, sepsis, reduced renal
81 ve pairs of swine lungs were retrieved after cardiac arrest and studied for 24H on the Organ Care Sys
82                                       Sudden cardiac arrest and sudden cardiac death (SCD) are terms
83 ibrillation according to the location of the cardiac arrest and their subsequent 30-day survival.
84  vivo assessment of the structural impact of cardiac arrest and therefore could be used for long-term
85 ho had a VABS-II score of at least 70 before cardiac arrest and who could be evaluated, the rate of t
86 opensity score analysis and examined for all cardiac arrests and separately for nonshockable (asystol
87  died, one who received immediate treatment (cardiac arrest) and three who received deferred treatmen
88 ian age was 61 years; 27% were women, 6% had cardiac arrest, and 6% had shock on admission; 10% were
89  sternotomy or thoracotomy, and cardioplegic cardiac arrest, and are associated with significant peri
90  initial shockable cardiac rhythm, witnessed cardiac arrest, and bystander cardiopulmonary resuscitat
91 dioverter-defibrillator firing, resuscitated cardiac arrest, and hospitalization for heart failure wa
92 uring induction of cardiac arrest, untreated cardiac arrest, and resuscitation.
93 ports on hydrocortisone administration after cardiac arrest, and those that have been published inclu
94   A total of 135 sudden deaths, resuscitated cardiac arrests, and trauma-related deaths were compiled
95  in patients after traumatic brain injury or cardiac arrest; and exocrine pancreas DNA was identified
96  of sustained ventricular arrhythmia, sudden cardiac arrest, appropriate defibrillator shock, or deat
97 TS-attributable syncope or seizures, aborted cardiac arrest, appropriate ventricular fibrillation-ter
98 ephrine administration following in-hospital cardiac arrest are common and variy across hospitals.
99  on temperature management after in-hospital cardiac arrest are limited.
100                     Treatment algorithms for cardiac arrest are rescuer centric and vary little from
101 4.1 years of follow-up, there were 33 sudden cardiac arrests (arrhythmic death or implantable cardiac
102 st database (which contains records of every cardiac arrest attended by paramedics in the network reg
103  years) at 548 hospitals with an in-hospital cardiac arrest attributable to a nonshockable rhythm who
104                For patients with in-hospital cardiac arrests attributable to nonshockable rhythms, de
105 ienced either in-hospital or out-of-hospital cardiac arrest between January 2005 and May 2014.
106 cohort greatly contributing to global sudden cardiac arrest burden, this marker provides robust discr
107 s can improve survival after out-of-hospital cardiac arrest, but automated external defibrillators (A
108 eases patient survival after out-of-hospital cardiac arrest, but it is unknown to what degree bystand
109 ntubation is common during adult in-hospital cardiac arrest, but little is known about the associatio
110 ed differences in survival after in-hospital cardiac arrest by race.
111          Prognostication studies on comatose cardiac arrest (CA) patients are limited by lack of blin
112 ciated with functional recovery 1 year after cardiac arrest (CA).
113          Audio recordings of out-of-hospital cardiac arrest calls were audited and linked with emerge
114  membrane oxygenation comorbid conditions of cardiac arrest, cancer, renal and liver dysfunction.
115  In contrast, in alpha-Syn mice subjected to cardiac arrest/cardiopulmonary resuscitation, 7.5% hyper
116                       Following experimental cardiac arrest/cardiopulmonary resuscitation: 1) continu
117                        Exclusion of selected cardiac arrest cases from public reporting was not assoc
118               Pigs were randomly assigned to cardiac arrest caused by either hypovolemia, hyperkalemi
119 tricle was dilated during resuscitation from cardiac arrest caused by hypovolemia, hyperkalemia, and
120 ventricle diameter during resuscitation from cardiac arrest caused by hypovolemia, hyperkalemia, or p
121 le is more dilated during resuscitation from cardiac arrest caused by pulmonary embolism, compared wi
122  Institutes of Health-funded out-of-hospital cardiac arrest clinical trial from August 2007 to July 2
123      Pre-extracorporeal membrane oxygenation cardiac arrest, continuous veno-venous hemofiltration, a
124 BP during CPR and Utstein-style standardized cardiac arrest data were collected.
125 trospective study, we used the Rescu Epistry cardiac arrest database (which contains records of every
126 a from the Toronto Regional RescuNET Epistry cardiac arrest database.
127       However, registries of out-of-hospital cardiac arrests demonstrate that 70% to 80% of such pati
128 whether outcomes after pediatric in-hospital cardiac arrests differ during nights and weekends compar
129 any patients with DCM and an out-of-hospital cardiac arrest do not have a markedly reduced left ventr
130 te of LAE in the 16 patients with a previous cardiac arrest dropped from 12% before HQ to 0 on therap
131                     The occurrence of sudden cardiac arrest due to structural heart disease was uncom
132                 We restrict SCD hereafter to cardiac arrest due to ventricular fibrillation, includin
133                      The incidence of sudden cardiac arrest during competitive sports was 0.76 cases
134 ital cardiac arrest, the incidence of sudden cardiac arrest during participation in competitive sport
135                      The incidence of sudden cardiac arrest during participation in sports activities
136 creening programs aimed at preventing sudden cardiac arrest during sports activities are thought to b
137  were 30-day survivors of an out-of-hospital cardiac arrest during the period from 2001 through 2012,
138                                   Deaths and cardiac arrests during the triathlon are not rare; most
139  the AED delivery time to an out-of-hospital cardiac arrest event.
140 30-minute untreated ventricular fibrillation cardiac arrest followed by extracorporeal cardiopulmonar
141               Donor rats sustained a hypoxic cardiac arrest, followed by variable acirculatory stando
142 in unconscious patients with out-of-hospital cardiac arrest for at least 24 hours, but the optimal du
143 er an AED to the scene of an out-of-hospital cardiac arrest for bystander use.
144 udy of adult patients who had an in-hospital cardiac arrest from January 2000 through December 2014 i
145  outcomes among survivors of out-of-hospital cardiac arrest has not been extensively studied.
146 al differences in survival after in-hospital cardiac arrest has occurred that has been largely mediat
147 eturn of spontaneous circulation (ROSC) when cardiac arrest has occurred.
148 al differences in survival after in-hospital cardiac arrest have narrowed over time and if such diffe
149           Most patients with out-of-hospital cardiac arrest have shown coronary artery disease or sym
150 y outcome additionally included resuscitated cardiac arrest, heart failure, and revascularization.
151 se adults and children after out-of-hospital cardiac arrest; however, data on temperature management
152             Cases were adjudicated as sudden cardiac arrest (i.e., having a cardiac cause) or as an e
153   Consecutive comatose adults admitted after cardiac arrest, identified through prospective registrie
154 hrine treatment in patients with in-hospital cardiac arrest (IHCA).
155 n tau in serum at 24, 48, and 72 hours after cardiac arrest in 689 patients in the prospective intern
156 ] age, 72 [62-80] years), 4783 (25.6%) had a cardiac arrest in a public location and 13905 (74.4%) in
157 cused on the acute treatment of nontraumatic cardiac arrest in adults.
158 ovided normal liver tests and the absence of cardiac arrest in donors, older liver grafts (>75 years)
159 se a mitochondrial disease leading to sudden cardiac arrest in infants.
160  identified a likely pathogenesis for sudden cardiac arrest in nearly half of survivors in whom coron
161                   Before 2010, patients with cardiac arrest in New York were less likely to undergo p
162 tal cardiopulmonary resuscitation (ICPR) for cardiac arrest in nonelderly adults is not well known.
163 ibrillators (ICDs) have a role in preventing cardiac arrest in patients at risk for life-threatening
164                                              Cardiac arrest in patients on mechanical support is a ne
165                                              Cardiac arrest in this study was defined by intra-aortic
166                        Incidence of death or cardiac arrest in USAT-sanctioned races from 2006 to 201
167 We linked nationwide data on out-of-hospital cardiac arrests in Denmark to functional outcome data an
168               Pigs were randomly assigned to cardiac arrest induced by pulmonary embolism, hypoxia, o
169 igs were anesthetized and then randomized to cardiac arrest induced by three diffrent methods.
170  Among comatose survivors of out-of-hospital cardiac arrest, inhaled xenon combined with hypothermia
171        Among adult patients with in-hospital cardiac arrest, initiation of tracheal intubation within
172                                              Cardiac arrest is associated with morbidity and mortalit
173 tracheal intubation during adult in-hospital cardiac arrest is associated with survival to hospital d
174                                              Cardiac arrest is defined as the termination of cardiac
175                     Outcome prediction after cardiac arrest is important to decide on continuation or
176                                              Cardiac arrest is potentially reversible by cardiopulmon
177 brillation (VF)/ventricular tachycardia (VT) cardiac arrest is unknown.
178 zation, cardiovascular mortality, or aborted cardiac arrest), its components, and all-cause mortality
179 scharges for acute myocardial infarction and cardiac arrest January 2003 to December 2013 in New York
180 ll-cause death, cardiac transplantation, and cardiac arrest (log-rank P=0.008).
181 , donors with an unexpected and irreversible cardiac arrest (Maastricht categories I and II), is incr
182                                  Unexplained cardiac arrest may be because of an inherited arrhythmia
183 sociated with poor outcome at 6 months after cardiac arrest (median = 38.5, interquartile range [IQR]
184  anemia, respiratory failure, heart failure, cardiac arrest, metastatic cancer (requiring ICU), end-s
185 e and GS-967 and call for further testing in cardiac arrest models.
186 ythmias (n=31), resuscitated out-of-hospital cardiac arrest (n=20), or heart transplant for advanced
187 considered possibly related to momelotinib], cardiac arrest [n=1, considered possibly related to mome
188 1%) of 456 patients in the bortezomib group (cardiac arrest [n=1] and pneumonia [n=1]).
189 l myocardial infarction, and not surviving a cardiac arrest; N=95 884 hospital admissions) by review
190 llion person-years of observation, 74 sudden cardiac arrests occurred during participation in a sport
191                       Most sudden deaths and cardiac arrests occurred in the swim segment (n = 90); t
192        All 939 patients with out-of-hospital cardiac arrest of presumed cardiac cause that had been i
193 June 2015, we included adult out-of-hospital cardiac arrest of presumed cardiac pathogenesis.
194                              Out-of-hospital cardiac arrest (OHCA) commonly presents with nonshockabl
195 Neurocognitive outcome after out-of-hospital cardiac arrest (OHCA) is often poor, even when initial r
196 lth initiatives according to out-of-hospital cardiac arrest (OHCA) location, particularly at home, wh
197 , the average survival after out-of-hospital cardiac arrest (OHCA) remains <10%.
198  defibrillator placement for out-of-hospital cardiac arrest (OHCA) treatment have focused on identify
199 Background: In patients with out-of-hospital cardiac arrest (OHCA), care requirements can conflict wi
200 ury in comatose survivors of out-of-hospital cardiac arrest (OHCA).
201 on of the neighborhood where out-of-hospital cardiac arrests (OHCAs) occur.
202 brillation) of patients with out-of-hospital cardiac arrests (OHCAs) remains limited despite the wide
203 aracterize BCPR in pediatric out-of-hospital cardiac arrests (OHCAs).
204 ospitals with acute myocardial infarction or cardiac arrest on marathon dates had longer ambulance tr
205           Patients with cardiogenic shock or cardiac arrest on presentation were excluded.
206 e followed for the primary outcome of sudden cardiac arrest or appropriate implantable cardioverter d
207 r ventricular arrhythmia, defined as aborted cardiac arrest or documented ventricular fibrillation an
208       Determining the pathogenesis of sudden cardiac arrest or periarrest without significant coronar
209 of life-threatening arrhythmic events (LAE) (cardiac arrest or sudden cardiac death) in SQTS patients
210 fined as myocardial infarction, resuscitated cardiac arrest, or CHD death), cardiovascular disease (C
211 ncluding myocardial infarction, resuscitated cardiac arrest, or CHD death.
212 outcome additionally included heart failure, cardiac arrest, or revascularization.
213 was defined as death, myocardial infarction, cardiac arrest, or stroke.
214 nual risk of LQTS-triggered syncope, aborted cardiac arrest, or sudden cardiac death.
215 Score for the combined outcome (i.e., death, cardiac arrest, or unanticipated ICU admission) was 0.88
216 aluate the role of CMR in determining sudden cardiac arrest pathogenesis and prognosis in survivors.
217 CI) facilities and transport out-of-hospital cardiac arrest patients directly to PCI centers despite
218 n a large cohort of comatose out-of-hospital cardiac arrest patients treated by targeted temperature
219        Nearly half of apparently unexplained cardiac arrest patients ultimately received a diagnosis,
220   Rates of revascularization in New York for cardiac arrest patients were lower throughout.
221 rest location, we identified out-of-hospital cardiac arrest patients with prehospital return of spont
222 ted with better outcomes for out-of-hospital cardiac arrest patients, even when bypassing nearest hos
223 hospital cardiac arrest than for in-hospital cardiac arrest patients.
224 hospital cardiac arrest than for in-hospital cardiac arrest patients.
225  four deaths that occurred during the study (cardiac arrest, pneumonia, sepsis, and subarachnoid haem
226 xist, especially those examining in-hospital cardiac arrest, protocol improvement, postcardiac arrest
227 ization, heart failure, atrial fibrillation, cardiac arrest, pulmonary embolism, and/or stroke).
228                 The correlation was weak for cardiac arrest (r = 0.24; P = .07), weak for sepsis (rho
229  arrest and resuscitation may be inherent to cardiac arrest rather than being associated with certain
230  right ventricle dilation may be inherent to cardiac arrest, rather than being associated with certai
231 uscitation was attempted using data from the Cardiac Arrest Registry to Enhance Survival (CARES) from
232                         This analysis of the Cardiac Arrest Registry to Enhance Survival database inv
233                        METHODS AND Using the Cardiac Arrest Registry to Enhance Survival with geocodi
234        With the use of INTCAR (International Cardiac Arrest Registry), an 87-question data set repres
235 2001, to December 31, 2012, using the Danish Cardiac Arrest Registry.
236        Targeted temperature management after cardiac arrest requires deep sedation to prevent shiveri
237 tive adult patients with refractory OH VF/VT cardiac arrest requiring ongoing cardiopulmonary resusci
238 ry patients, 5 died from untreated VF, 4 had cardiac arrests requiring external shocks, and 1 was res
239 nonfatal myocardial infarction, resuscitated cardiac arrest, revascularization, or angina).
240 d any dose of a trial drug and whose initial cardiac-arrest rhythm of ventricular fibrillation or pul
241 ng characteristic curve 0.71) and electronic Cardiac Arrest Risk Triage (median area under the receiv
242                      Furthermore, electronic Cardiac Arrest Risk Triage score identified 52% (n = 201
243 perating characteristic curve for electronic Cardiac Arrest Risk Triage score was 0.88 for cardiac ar
244 fied Early Warning Score, and the electronic Cardiac Arrest Risk Triage score were calculated for pre
245 rome was the least predictive and electronic Cardiac Arrest Risk Triage the most predictive regardles
246                                     Death or cardiac arrest risk was similar for short, intermediate,
247 -resolution stratification of risk of sudden cardiac arrest (SCA) in individual patients is a tool th
248                         Prevention of sudden cardiac arrest (SCA) in the young remains a largely unso
249                                       Sudden cardiac arrest (SCA) ranks among the most common causes
250  contrast, prehospital mortality from sudden cardiac arrest (SCA) remains high and difficult to reduc
251                        Survival after sudden cardiac arrest (SCA) remains low, and tools for improved
252  adults who had nontraumatic out-of-hospital cardiac arrest, shock-refractory ventricular fibrillatio
253 ased on the model and Danish out-of-hospital cardiac arrest statistics, an additional 233 patients co
254 ve shown marked variation in out-of-hospital cardiac arrest survival across US regions, factors under
255 practices that distinguish sites with higher cardiac arrest survival rates remain unknown.
256 reatments in these neighborhoods may improve cardiac arrest survival.
257                                       Of 375 cardiac arrest survivors in CASPER from 2006 to 2015, 17
258                      Four hundred thirty-two cardiac arrest survivors underwent targeted temperature
259 on Fraction Registry) is a large registry of cardiac arrest survivors where initial assessment reveal
260                      METHODS AND The CASPER (Cardiac Arrest Survivors with Preserved Ejection Fractio
261               The role of genetic testing in cardiac arrest survivors without a definite clinical phe
262 t in a significant proportion of unexplained cardiac arrest survivors.
263             Volatile sedation is feasible in cardiac arrest survivors.
264 emain low after hemorrhage-induced traumatic cardiac arrest (TCA).
265  differed and was better for out-of-hospital cardiac arrest than for in-hospital cardiac arrest patie
266 nitial rhythm but higher for out-of-hospital cardiac arrest than for in-hospital cardiac arrest patie
267                        Three cases of sudden cardiac arrest that occurred during participation in com
268             We sought to identify all sudden cardiac arrests that occurred during participation in sp
269 work region) to identify all out-of-hospital cardiac arrests that occurred from 2009 through 2014 in
270  applied our model to 53 702 out-of-hospital cardiac arrests that occurred in the 8 regions of the To
271 tudy period, among the 2084 patients who had cardiac arrests that were not witnessed by emergency med
272 dy involving persons who had out-of-hospital cardiac arrest, the incidence of sudden cardiac arrest d
273 ly used in the management of out-of-hospital cardiac arrest, the optimal strategy is not known.
274                          During induction of cardiac arrest, the right ventricle dilated in all group
275 read clinical assumption that in hypovolemic cardiac arrest, the ventricles are collapsed rather than
276 g comatose children who survived in-hospital cardiac arrest, therapeutic hypothermia, as compared wit
277                                Patients with cardiac arrest, thrombolytic therapy, prior revasculariz
278 e rates and the length of hospital stay from cardiac arrest to discharge, stratified by use of hydroc
279 ge in patients experiencing refractory VF/VT cardiac arrest treated with a novel protocol of early tr
280                    Important gaps in RCTs of cardiac arrest treatments exist, especially those examin
281 or, and record data on gasping in all future cardiac arrest trials and registries.
282 y of the Target Temperature Management After Cardiac Arrest (TTM) trial, a multicenter randomized, pa
283 hic images were obtained during induction of cardiac arrest, untreated cardiac arrest, and resuscitat
284 d Relevance: Among patients with in-hospital cardiac arrest, use of therapeutic hypothermia compared
285 though survival of patients with in-hospital cardiac arrest varies markedly among hospitals, specific
286 nt with shockable rhythms, and survival from cardiac arrest was 2.5-fold higher in sports-related ver
287 e was more dilated during resuscitation when cardiac arrest was caused by pulmonary embolism compared
288                                       Sudden cardiac arrest was correlated with a greater volume of d
289                                              Cardiac arrest was induced in female large white pigs by
290       Twenty-four pigs were anesthetized and cardiac arrest was induced using three different methods
291 D) if not already tried; 5) in patients with cardiac arrest, we recommend IV calcium in addition to t
292 t, unconscious patients with out-of-hospital cardiac arrest were enrolled from February 16, 2013, to
293 d an invasive airway in place at the time of cardiac arrest were excluded.
294            Baseline measurements and time to cardiac arrest were not different amongst groups.
295                           Data on deaths and cardiac arrests were assembled from such sources as the
296 evalent in patients with refractory OH VF/VT cardiac arrest who also met criteria for continuing resu
297  a total of 112139 patients with in-hospital cardiac arrest who were hospitalized in intensive care u
298 fficacy outcome, survival at 12 months after cardiac arrest with a score of 70 or higher on the Vinel
299 animal model of hemorrhage-induced traumatic cardiac arrest with NCTH.
300  risk and improve the triage of survivors of cardiac arrest without ST-segment-elevation myocardial i

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